新聞資訊
7075鋁合金熱變形時動態再結晶晶粒度演化模型
發布人:上海艾荔艾金屬材料有限公司www.jshcn.cn
更新時間:2015-08-24
7075鋁合金在熱變形過程中主要發生連續動態再結晶,在溫度為250~450 ℃、應變速率為0.1~1 s-1的條件下,對多組圓柱試樣進行熱模擬壓縮實驗。采用金相定量法對熱變形后材料的顯微組織晶粒度進行測量,建立7075鋁合金熱變形時動態再結晶晶粒度演化模型。
7075鋁合金熱變形時動態再結晶晶粒度演化模型Dynamic recrystallization grain size evolution model of 7075
aluminum alloy during hot deformation
7075鋁合金在熱變形過程中主要發生連續動態再結晶,在溫度為250~450 ℃、應變速率為0.1~1
s-1的條件下,對多組圓柱試樣進行熱模擬壓縮實驗。采用金相定量法對熱變形后材料的顯微組織晶粒度進行測量,建立7075鋁合金熱變形時動態再結晶晶粒度演化模型。結果表明:根據唯象理論的指數模型,利用線性回歸方法求得7075鋁合金熱塑性變形組織晶粒度的演化模型;將該模型導入到有限元軟件中能夠預報7075鋁合金熱變形過程的連續動態再結晶晶粒度;預報結果與實驗結果非常接近,說明將該演化模型導入有限元軟件中可以較為準確地預測7075鋁合金熱變形過程動態再結晶晶粒度。
Continuous dynamic recrystallization (CDRX) of 7075
aluminum alloy occurs during hot deformation. The thermal compression experiment
about the group of cylindrical specimen was done at the temperature of 250-450 ℃
and the strain rate of 0.1-1 s-1. The microstructure grain size of
7075 aluminum alloy was measured by the metallographic quantitative method, the
microstructure grain size evolution model of 7075 aluminum alloy. The result
shows that, according to the exponential model of phenomenological theory and
the linear regression method, the microstructure grain size evolution model of
7075 aluminum alloy during the thermoplastic deformation can be worked out. And
then, by the finite element software with the evolution model continuous dynamic
recrystallization grain size of 7075 aluminum alloy during hot deformation was
predicted. The forecasting result is very close to the experimental one.
Therefore, by finite element software with the evolution model, dynamic
recrystallization grain size of 7075 aluminum alloy during the hot deformation
process can be accurately predicted.
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